Which is best for my business – FTTP or a Leased Line?

 

Let’s face it – These days, business flow depends on connectivity. 

 

With remote working now more prevalent than ever before, there is a significant business need for straightforward online collaboration. Not to mention business critical operations and organisational efficiency. 

 

For a successful business, you need a reliable, strong connection that doesn’t buffer or drop out during vital video calls and digital team meetings. 

 

What’s the point in having top of the range tech and dedicated employees if you don’t have the broadband speed to keep up with their communications or computers?

 

There is nothing less motivating than slow internet – Lagging video, audio that’s out of sync, calls that drop out, pages that load slowly. It makes us feel frustrated just thinking about it! 

 

And whilst it might not sound like much – That 30 seconds of delay here and there throughout the day could actually add up to a lot of lost productivity across an organisation in just one week. 

 

So what’s the solution? For any small business, it’s really down to two options – FTTP (Fibre to the Premises) or a leased line. But which one is best for your business?

 

What is FTTP and how does it work?

 

As we said above, FTTP is Fibre to the Premises. It means an internet connection that is designed for small businesses and consumer use.  

 

FTTP works by sending data over a fibre optic cable from the exchange to the user’s premises. FTTP relies on already existing broadband infrastructure, which means that users share the bandwidth. This could lead to slower connection speeds and unreliability during peak times. 

 

An FTTP service is asymmetrical, meaning that the upload and download speeds are not the same. 

 

What is a leased line and how does it work?

 

A leased line, or fibre leased line, is a dedicated fibre optic service. It has a fixed bandwidth and is provided directly to the premises. Unlike FTTP, a leased line connects directly to the public internet. This means there is no shared infrastructure – thus the data’s journey is very different. 

 

Due to leased lines being dedicated, it won’t be affected at peak times because the bandwidth is reserved exclusively for that user. A leased line also uploads data at the same time as it downloads – Useful for sending large files or if you use VoIP telephones throughout the business. 

 

How do FTTP and Leased Line compare? 

 

Let’s take a look at how FTTP and Leased Line compare to each other in terms of use and functionality. Depending on how these fit with your business, you should hopefully be able to identify which would work better for you and your business operations. 

 

Speed and Bandwidth for FTTP vs Leased Line

 

Using an FTTp service, your highest download speed will be in the range of 300mbps and 1Gbps. Remember, in this scenario you share the infrastructure with other users, which means that during busy periods your bandwidth is likely to be compromised. Generally speaking you are looking at about 32 customers on an FTTP service. 

 

On a Leased Line, all of the bandwidth is there for you to use. The connection speeds on a Leased Line could be up to 10Gbps, with the same upload and download speeds. This is particularly useful for high-demand users, who could struggle on an asymmetrical FTTP. 

 

Traffic on a FTTP vs Leased Line

FTTP services can have a monthly data transfer quote which means it would be important for you to stay on top of your data usage. 

 

A leased line has availability 24/7 all year round, which means you have unlimited data transfers. 

 

Price of FTTP vs Leased Line

There is a significant difference in price when it comes to FTTP and Leased Line. 

 

The cheaper option is FTTP. This is because it’s a shared service, and more specifically aimed at residential properties and small businesses. You would likely be looking between £30 and £60 per month, which of course depends on the provider and the speed of the broadband you choose. For a new FTTP installation, it would take about 10-15 days. 

 

For Leased Lines, you would be looking at a cost of about £150 per month for lower bandwidths. Not only is it up to 5 times the cost of some FTTP, you may also incur additional charges (construction charges) which can push the price up more. Installation wise you would be looking at about 60-90 days to get things set up. 

 

Service Level Agreements for FTTP vs Leased Lines 

 

Whichever service you go for, you will have an SLA. The SLA for a Leased Line will be more thorough – For example, any fault on the line that needs fixing will be repaired within 5 hours. In comparison, a fault on FTTP could take 2 days to fix. 

 

An SLA will also lay out the speed of a Leased Line, which you can then be compensated for if it is consistently slower. This isn’t something you can do with FTTP. 

 

A Leased Line also comes with 24/7 support, whereas support for a FTTP line will be within business hours. 

 

Reliability of FTTP vs Leased Lines

 

As we mentioned above, when using an FTTP line, you could notice an adverse chane in connection during peak times. Leased Lines will never experience this problem (unless there is a fault) so you are less likely to have the connection drop out. This means that a Leased Line is the more reliable connection of the two. 

 

Availability

 

Leased Lines are available throughout the UK, but of course their accessibility depends on whether you can afford the cost. 

 

Whilst FTTP is a cheaper option, it is only available to approximately 94% of the UK.

 

Contracts

 

Contract options for these lines are as follows:

  • FTTP – 12 months, 18 months or 24 months, 
  • Leased Line – 12 months, 36 months, or 60 months 

 

It’s worth noting that if you choose a 12 month Leased Line contract, you’ll be paying more each month to spread the installation cost. 

 

So Which One is Best – Leased Line or FTTP?

 

If you own a small business, run a charity or are a residential consumer, then FTTP will likely meet your needs. 

 

Generally speaking, if you are one of these types of consumer then you won’t be needing service 24/7 all year round. You are also less likely to be transferring huge amounts of data too. And it’s the cheaper option! 

 

For larger businesses and organisations that rely more on a reliable connection, then a dedicated Leased Line service with a thorough SLA could be the better choice. You will then have peace of mind that your broadband is sturdy, and should something go wrong with it you’re backed up by a speedy resolution. Keeping disruption to your organisation to a minimum! 

 

Get In Touch

 

If you are feeling unsure about what could be the best internet service for your business and would like to discuss your connectivity needs, then get in touch with one of our Wi-Fi Experts today. We operate out of Hampshire, London and Cardiff and can help you to make sure that your connectivity meets your business or residential needs – Both in terms of connection but cost too. 

 

How to Give Your Wi-Fi Network a Health Check

You might think that once you’ve got your Wi-Fi network all set up and running, then that’s it done. But it’s not! Having a reliable wireless network involves ongoing maintenance and health checks to make sure that it’s performing at its optimum level.

There are plenty of variables in a wireless network that could change. Things like user demand or changes in the radio frequency that could have an impact. Seemingly simple things like rearranging your office furniture, onboarding new employees or using more applications requiring bigger bandwidth can all be negative factors affecting your Wi-Fi network.

Ongoing, regular surveys can help you catch these changes before they start to cause you too many problems.

So what do you need to do to keep your wireless networking functioning effectively?

 

Monitor New Client Devices

Just as when you are in the design and planning stages, it’s vital to know the number of users that are connected at any one time, and what devices they are connecting to the network with. Your network performance depends on this!

This could likely change with company growth or if your business has seasonal staff where connections peak and trough.

It’s also worth bearing in mind how old the devices are. Older laptops, for example, won’t work so well with today’s modern networks. And vice versa!

You can counteract this by semi-regularly updating your devices to align with your network.

Likewise, if your network was originally deployed a while ago, without being monitored or updated it will fail to work with modern devices to their potential.

You need to also monitor the applications being used and ensure that the bandwidth matches the demand. Organisations like schools that now have a plethora of laptops connecting wirelessly to the school network need to have strong, reliable Wi-Fi. Hospitals also have high bandwidth demand with the ‘workstations on wheels’ that are now prevalent.

The more end users you add to your network, the more bandwidth you will need.

In simple terms – Make sure you are monitoring new client devices. Make it your business to keep track of how many devices are connecting to your network and make sure you can meet the Wi-Fi demand consistently. Your business operations depend on it.

App Usage and Progression

As we all know, technology is constantly evolving. Device manufacturers are always striving for the fastest, most powerful offering to stay ahead of their competitors.

This means that apps and software also move fast to keep up. This constant evolution means that you need more and more data with every update. Thus, the requirements of your Wi-Fi network are likely to change and be modified accordingly.

Wireless is often the first choice – If not the only choice! So you need to make sure your business Wi-Fi offering is up to scratch.

 

Physical Changes in the Office Landscape

You might not think too much about rearranging the office, but this could have a significant impact on your coverage area and how your access points function.

Tweaks like going from open plan to individual offices (or the other way around) will change the way your AP’s perform in your office space.

Interior walls (or lack of them) will affect the radio frequency and how it attenuates. You might be thinking, surely removing partition walls to make an open plan office couldn’t cause Wi-Fi problems. Ut actually it could! The RF will be able to travel further without any attenuating interior walls, meaning it could start contending with other channels and cause interference.

Any physical changes in your office environment need to be surveyed to see if and how it will affect how your Wi-Fi network functions. This means you can make the necessary adjustments before problems arise.

 

Identify Common Causes of RF Interference

Following on from physical changes in your office environment, you need to also be aware of other possible causes of RF interference.

Once possible source of interference on your Wi-Fi network could be noise from neighbouring networks. Other AP’s in range of your coverage area could cause RF interference, especially if their power levels are turned up.

Wi-Fi interference is when you have AP’s that are operating on the same or adjacent frequencies. This can cause interference or contention on these channels, or Overlapping Basic Service Set (OBSS). If your network is experiencing this type of interference, you could see your ability to send or receive data significantly reduce or even completely disabled.

You can also get non–Wi-Fi Interference from devices that use other radio networks. Things like microwaves, monitors, blue tooth or surveillance cameras could all cause interference problems.

 

Your Business Depends on your Wi-Fi Network

If you’ve gone to the effort of designing and planning the optimum network for your business, then don’t waste that work by not monitoring and maintaining it.

Even the best networks will need tweaks and changes over time, to make sure it can keep up with the demands of new users and modern devices.

Regular monitoring or ‘Wi-Fi health checks’ can help identify problems while they’re still small – Allowing you to get them sorted out before they start causing your business serious issues. Don’t wait until the IT department are inundated with calls from frustrated, unproductive employees.

If you think your wireless network is in need of a health check, why not give us a call here at Geekabit? Our wireless experts have the knowledge and expertise to diagnose and solve your Wi-Fi problems, improving the reliability and functionality of your business Wi-Fi.

Why Is Network Design So Important for Reliable Business Wi-Fi?

Wi-Fi is no longer a ‘like to have’ when it comes to successful business planning. It’s vital for businesses to have strong, reliable Wi-Fi in order to business processes to run smoothly.

No matter what industry your business is in – Wi-Fi is crucial. Gone are the days when everything could be wired and cabled. Whether you run a warehouse, a hospital or operate out of an office; Your business needs to run wirelessly.

Organisations tend to have an armada of laptops, tablets, smartphones and other IoT devices that require effective Wi-Fi.

So if the need for a good Wi-Fi connection is so prevalent, why are we still seeing so many businesses struggle with their Wi-Fi network?

The requirements can be demanding, and to be successful a network needs to meet those demands. Plug-in-and-go routers aren’t going to cut it unfortunately. Your business network needs more!

So how can you ensure that your network can be relied upon by your employees every day, so they can do their job productively and efficiently?

It all comes down to the design.

What do you need to consider when designing a Wi-Fi network?

Designing your wireless network gives you the chance to translate your business needs into a Wi-Fi network that will work for you and meet those needs.

So what do you need to consider?

Capacity

You need to think about how many devices will require a Wi-Fi connection. You need to be asking questions like how many employees you have, are there people in addition to employees that will need to connect, how many devices are each of these people likely to have and what type of device are they.

Getting to know how much traffic you will likely have will help you to determine how much bandwidth you need in order to meet consumption needs.

If you don’t get the capacity planning right, you could end up with very unhappy employees suffering with slow internet speeds and an intermittent connection. Neither are conducive to a productive work environment!

Something else to consider is how the capacity changes as you move around your site. Do some locations have a higher capacity demand than others? This information will help you to design a network where access points are distributed according to requirements.

Capacity isn’t just important during the planning stage either. It’s something you will need to monitor so that you can identify when more devices are trying to connect and adapt the network accordingly.

 

Coverage

We’ve talked about capacity and how many devices are likely to connect. Now it’s time to talk about where those users need that connection.

Identifying your coverage area allows you to optimise the distance between your wireless transmitters. Getting this right means that you’ll have the right signal strength for the Wi-Fi enables devices trying to connect.

Coverage is split into two – Primary coverage and Secondary coverage. Interweaving the primary coverage area of your transmitters with the secondary coverage of necessary overlaps means that your end users will be able to roam throughout your site without their connection dropping out on their device.

The idea is to find the perfect balance in the number of AP’s you deploy. Too many AP’s not only costs you more money on installation but can also cause interference. Not enough AP’s and you won’t be able to meet your coverage needs.

 

What is the Least Capable, Most Important Device?

It’s important to identify what device is most business critical – And whether that device poses a risk to the rest of your network. You might find that a warehouse scanner, or even an employees laptop, is critical to the needs of the business, but is also the oldest and least technologically advanced device on the network.

You need to identify this device (or devices) and make sure that your network will ensure the device(s) stay online. You can do this by checking the manufacturer specifications and make sure these align with your network offering.

 

Are there any Obstacles on site?

It’s a good idea to walk around your site and identify any potential obstacles to your wireless signal. Sometimes having an actual walk-around sheds more light on potential problems than just looking at a simple floor plan. You need to know exactly how the radio frequency will behave in your specific environment.

Consider things like high or exposed ceilings, columns, large items of furniture, lift shafts, stairwells and even signage.

You should also look to see where access points could be easily installed, and any areas where this would not be possible. This also goes for cabling.

Mitigating the Effects of Wall/ Door Material on Signal Attenuation

In order to mitigate the risks of attenuation, you need to understand what materials could pose a problem to your Wi-Fi signal.

When you are designing your Wi-Fi network, it’s imperative that you identify the physical characteristics of your environment and understand how this can impact your wireless signal.

The amount of signal strength absorbed by walls or doors depends on what they are made from. A rough guide to this would be:

  • Bookshelf – 2dB
  • Drywall – 3dB
  • Exterior Glass – 3dB
  • Solid Wood Door – 6dB
  • Marble – 6dB
  • Brick – 10dB

Having this information specific to your site means you can design a wireless network that works really well.

Call the Experts

If this all seems a bit overwhelming, then call in the experts. That’s what we’re here for! We have all the necessary technology to survey your site and then design and plan a wireless network specific to your business needs. Give our Wi-Fi experts a call today to see how Geekabit can help.

 

A Simple Guide to Help You Plan Your Marina Wi-Fi

Most businesses make it their mission to provide their guests and customers with a reliable wireless connection – It’s vital for a successful guest experience across industries.

If you are in the process of upgrading your marina site, then the dependability and consistency of the available Wi-Fi should be part of your upgrade plans.

The optimum Wi-Fi offering should enable near continuous connectivity throughout your site. It’s imperative that guests moving around your marina don’t have their connection drop out.

Strong, reliable Wi-Fi isn’t an amenity that guests will compromise on. It’s become an expectation in everyday life, regardless of location or industry. Both potential and existing boating customers will want a good internet connection.

Perhaps you’re thinking that most boaters are there for leisure rather than business, so maybe a reliable internet connection isn’t the be all and end all. However, studies have shown that nearly 70% of holiday-makers within employment choose to take a smart device along with them on their break specifically to enable them to connect to work.

This is just one of the many reasons that your marina needs to be able to offer customers reliable Wi-Fi services.

So what questions do you need to be asking yourselves when starting to plan your marina’s WI-Fi network?

Here are some things to consider during the Wi-Fi Planning and Design phase.

 

Where is the ISP entry point?

You will need to consider where on your site the Internet Service Provider’s equipment is. Where this entry point is, affects what you will need to deliver the internet to your customer device. You may need Ethernet cabling, network Power-over-Ethernet Switches and/or Wireless Access Points to get the internet service delivered from the ISP entry point to the client device.

How far away is this ISP entry point from the area you need to cover?

Knowing this distance will help you work out the coverage area and what equipment you will need to get the internet from the ISP entry point to the end user, and where best to place this equipment. It will also help you to identify the type of network devices you will require.

How much bandwidth are you receiving from your ISP?

You will need to know the amount of bandwidth you are getting from your ISP in order to work out the maximum internet speed you will be able to offer your employees, boaters and guests. The more bandwidth you have, the more guest devices you can connect to, and thus the higher the quality of Wi-Fi service you will be able to offer your customers.

Do you know how many users you are likely to have?

Having an accurate estimate of how many users / devices you are likely to have connected at one time will help you to determine how many Access Points you will need throughout your marina. The higher your average number of users, the more Access Points you will need.

Is quality of service important to you?

We are assuming that you’re doing this exercise not just to tick a box, but because you really care about the quality of the internet you’re providing to your customers. Knowing how much access you want to offer your staff, boaters and guests will help you work out how to place your Access Points. There are two main services to look at here.

The first is a Hotspot Service. This is where Wi-Fi services will only be available in specific areas. Any guests wanting to connect to your Wi-Fi services will need to go to those specific areas. These could be the clubhouse, café or other areas of recreation.

The other service would be virtually everywhere. This would include on the dock as well as their boat and throughout the entire marina.

The Access Point requirements for these services would be rather different.

Is there any likely interference from buildings?

It’s wise to consider what your buildings are made of, as some materials could be obstructive to wireless signals. Are they made of wood or concrete or metal? What about the walls, ceilings and doors? Think about how this will affect the wireless signal, and make your Access Point placements accordingly.

How far do your current Ethernet cables go?

If you already have Ethernet cables running, how far do they go? Do they go to the docks or the ends of the docks? If you already have proper, shielded Ethernet cables to your docks then continuing on a wireless service from here is pretty easy. If Ethernet cabling is something you are currently considering, then it could be worth your while doing this to the end of your docks to make further Wi-Fi deployment smooth sailing.

If you don’t have ethernet cabling to the docks, and this isn’t something you want or can do, then a secure wireless link could be the option for you. This link or wireless bridge will carry the signal on to a designated location. The devices on each side of the link or bridge are linked to another device – This could be a network switch, camera or router.

Is a surveillance system part of your marina upgrade plans?

If you are planning to implement a new network-based surveillance system or expand an existing one, then you will need to consider the bandwidth usage of your entire site. The higher resolution your surveillance cameras, the more bandwidth they will need, so do consider how clear you need the surveillance to be e.g. facial recognition, number plate visuals etc.

Surveillance systems can provide comfort and security for both staff and customers, and it’s more commonplace to see them as a part of a marina than to not. Footage from this system could provide you with evidence of liability, vandalism and theft.

How many docks do you want to provide Wi-Fi access to?

You need to work out how many docks you would like to provide with wireless internet access. Will it be some of the docks or all of them? Knowing this number will help you identify how many Access Points you will need. It will also determine where the AP’s need to be placed. You may also need additional wireless links or bridges. Knowing how many docks you are providing with Wi-Fi will also help you to work out an estimate of the average number of users at a given time using your network.

Are your boaters likely to try and connect to your network on board their boat?

You need to know whether your boaters have on-board devices that they are likely to want to connect to your network. Whether or not your Wi-Fi network is deemed successful will often be determined by the experience of your end user. If your customer suffers intermittent coverage and dead spots, then your Wi-Fi network is not doing what it’s intended for.

 

Taking these things into consideration will help you to successfully carry out your site planning. You need to know that the service you provide is enough for the demand.

If this all seems a little overwhelming, then why not leave it to the professionals? Our Wi-Fi experts have the expertise and knowledge to successfully carry out a Wi-Fi Site Survey of your marina, and then design and deploy a Wi-Fi network according to the necessary specifications.

To chat through the options for your marina, give our Wi-Fi experts a call today.

How Do Wireless Directional Antennas Work?

This week we’re going to take a look at wireless directional antennas and how they work. By understanding this, you can ensure that your Wi-Fi network provides the coverage you need for reliable, strong Wi-Fi links.

To create a wireless bridge or point-to-point link, you would use a directional antenna. Your coverage requirements will determine the size and shape of the directional antenna needed, as well as whether you are using them inside or outdoors.

First things first – What do we need in order to establish a long-range wi-Fi link? There are a few main requirements that we need in order to achieve this.

Remote Wi-Fi Links – 3 Requirements

We need to satisfy 3 requirements in order to set up a long-range Wi-Fi link. Whether your signal is indoors or outdoors, the basic needs remain the same. For example, the signal could likely navigate and pass through a thin wall indoors, or one tree outdoors. However, navigating an entire building of walls or a forest of trees would be more difficult.

When a wireless signal is traversing over longer distances, packets of data can be lost. Adding in other complexities (like many walls or trees) can cause problems with the signal.

So in order to establish and maintain a strong connection over a long distance we need to fulfil these 3 requirements:

  1. There must be a direct line of sight between the antenna and the receiver. This means no obstacles in the way, like buildings, walls or forests.
  2. The antenna must be elevated and be horizontal with the point that is receiving the signal ready to transmit it. For the connection to be strong, the antenna and the router for example, need to be on a level – Not one higher or lower than the other.
  3. The antenna must be directed towards the router or Wi-Fi transmitter. The directional antennas only emit and receive Wi-Fi signal in one single direction, so it needs to be positioned on that side. The accuracy needed for the position depends on the angle opening on the antenna. For example, the smaller the angle, the more accurate the position must be. More on that next!

Antenna Angles

How far a directional antenna can transmit a Wi-Fi signal depends partly on the size of its angle. For example, a directional antenna with a wide angle could transmit to a wider area around it, but not as long a range. A directional antenna with a small angle is a more focused transmission and will provide further coverage.

A good analogy to explain this is a light bulb. A bulb without a lampshade will emit light at an angle of 360 degrees. It works well to illuminate the area in close proximity, but doesn’t have great range in terms of distance. For example, lighting up one room.

In comparison, a bulb inside a torch operates at an angle of approximately 30 degrees. The light is much more directed, and thus has a further coverage range – But we don’t see light outside of the ‘sides’. The smaller the angle, the further the reach.

The same premise applies to wireless signal and directional antennas, as you can see from the diagram below.

Types of Wireless Directional Antenna and Their Uses

There are 4 main models of directional Wi-Fi antennas. They are designed to provide a Wi-Fi connection over long distances. They direct an entire frequency pattern in one direction to reach from point-to-point. A directional antenna receives the Wi-Fi signal and emits it forward; the distance it can cover depends on the angle it uses.

  1. Wireless Directional Antenna for Indoor Use – The 60° angle antenna

    A wireless directional antenna with an opening angle of 60 degrees is most practical for indoor use. The open angle of this directional antenna enables it to see all the Wi-Fi networks in it’s environment. It provides good quality signal over a range of up to approximately 300m.

  2. Wireless Directional Antenna for Long-Range outdoor Use – the 35° angle antenna

    This wireless directional antenna uses an opening angle of 35° which enables it to locate all the AP’s in a mesh Wi-Fi network outside the premises, covering a distance of up to around 800m. For this reason, it’s commonly used for long range networks. They are generally easy to install, are a manageable size and tend to come weatherproof so they can be used outdoors come rain or shine!

  3. Wireless Directional Antenna for Distant Networks – the 30° angle antenna

    These wireless directional antenna models have a closed angle. Their installation is a little more complex to the previous two models, and therefore is better suited to professional networks that need to cover very distant networks. Due to the closed angle, it is extremely important to get the positioning accurate.
  4. Wireless Directional Antenna for Professional Installers – the 7° angle antenna

    Due to these models of wireless directional antennas having a very narrow beam, it’s necessary to have them professionally installed. They are a favourite among professional Wi-Fi installers as they have a very high gain so provide a high wireless broadband casting range. High gain antenna can provide a strong Wi-Fi connection in all parts of your property from a single router. This type of directional antenna will have a parabolic reflector – basically a curved surface like a dish which direct the radio waves. This type of wireless directional antenna is ideal for long range networks.

If all this talk about wireless antennas has got you confused about which direction to go in, then why not give our Wi-Fi experts a call?

Working out of Hampshire, London and Cardiff, we can plan, design and install a Wi-Fi network that’s tailored to your home or business requirements. Get in touch with us today and we’ll have you better connected in no time.

 

 

The Fundamentals of a Wireless LAN

We were going to call this blog ‘WLANs for Dummies’ but that seemed a bit harsh so we settled on the fundamentals of a wireless LAN instead.

A wireless LAN, or WLAN, might seem complicated on the surface but actually it really just follows simple laws of physics. If you can understand these and follow them, then there shouldn’t be any reason why you can’t achieve high performance and scalability for your WLAN.

If you can understand the basics of wireless physics, then you can start to plan your WLAN for a successful deployment. It will also help you to troubleshoot an existing WLAN exhibiting issues.

How Does Data Travel Through a WLAN?

First things first – Let’s look at wave properties.

Data transmits, or travels, from one point to another – e.g. between wireless access points – via electromagnetic waves. This energy travels at the speed of light and operate at different frequencies.

The frequencies of these electromagnetic waves are defined by how many periodic cycles are completed by second.

For example:

How is Frequency Measured?

As we said above, frequency is how many wave cycles are completed per second. This is measured in Hertz. A 2Hz waveform is 2 completed wave cycles in a period of 1 second.

How Does Frequency Affect a WLAN?

A phenomenon called Free Space Path Loss is something that causes signal loss when a waveform travels from one point to another. This is what affects how well data travels across a wireless network.

Different wavelengths (frequencies) experience difference signal loss. The lower the frequency, the longer the wavelength, and the longer the wavelength, the further it can travel before signal gets lost.

For example, 2.4GHz have longer wavelengths than higher frequencies like 5GHz.

How is Wi-Fi Signal Loss Measured?

We measure the energy that is associated with received wireless signals in Decibels (dB). We can also measure loss of signal in this way.

Decibels are logarithmic. On the linear domain, when you add decibels it grows exponentially and when you subtract decibels it reduces exponentially.

The 3dB rule

Every 3dB change, there is a doubling of energy (if increasing) or a halving of energy (if decreasing).

As a ratio, this would look like:

If we had the wireless signal energy at
1:10dB

Then doubling it would be
2:13dB

Remembering this rule can help with both analysing the energy associated with wireless signals as well as predicting it.
Similarly, if you add or subract 10dB, it changes by a factor of 10.

The Relationship Between Frequency and Wireless Signal

Let’s take a look at 2.4Ghz and 5GHz frequencies or waveforms. 5GHz is a higher frequency, so has more wavelengths in a given time period. 5GHz has more wireless signal loss (attenuation) than 2.4GHz, and thus is better for high-density areas. 2.4GHz has less wavelengths in a given time period and is better suited for wider coverage. Bear this in mind when you are planning or troubleshooting a wireless network.

How is Wireless Signal Affected by Different Materials?

In an ideal world, you would have a clear line of sight between your wireless points. In reality, this is rarely the case and you will often find things that get in the way and stop the wireless signal from traversing effectively across your network.

Different materials will affect wireless signals and attenuation in different ways.

Materials such as concrete will cause more attenuation of wireless signal than wood.

In scenarios where wireless signals can propagate (the action of spreading) normally, there is no interference from other materials. However, there are some things that can alter the propagation of a wireless signal, causing it to behave differently and potentially become unreliable.

For example, a WLAN environment with metal surfaces may encounter unpredictability with wireless signal due to it reflecting off the metal.
Wireless signal can also be absorbed by certain materials like water or people, causing the signal to falter.

Being mindful of materials during the WLAN planning stage can help ensure the environment doesn’t hinder your wireless network and you have reliable connectivity results.

Co-Channel Interference

Different materials aren’t the only thing that can interfer with wireless signals.

Due to the 2.4GHz and 5GHz frewuency bands being unlicensed, there are no restrictions on people when extending wireless networks with access points.

This means that they can become crowded as well as channels not being assigned efficiently. Both of these issues can cause co-channel interference.

When planning your WLAN it’s important to take these issues nito consideration and plan your wireless network accordingly so as not to risk problems with wireless signal later down the line.

You want your WLAN to be as effective and efficient as it can possible be, which takes planning and wireless network knowledge.

Whilst the 2.4GHz is popular due to its propagation qualities due its waveforms passing through materials like walls more easily and reaching end users at a long distance. This however has meant that its become crowded with competing devices such as cordless telephones, baby monitors and bluetooth devices. This saturation can cause problems with your wireless signal.

In comparison, the 5GHz spectrum has greater availability and relaxed transmission power giving it more flexibility when it comes to wireless networks.

The 2.4GHz band has only 3 channels without any overlap, whereas the 5GHz has 24. This is another reason why the 5GHz band is favoured for high-density WLAN environments.

Understanding Frequency Channels

To ensure you can maximise the performance and scalability of your WLAN, you need to understand how these channels operate and use that knowledge to avoid co-channel interference.

Let’s take an Access Point as an example. An AP will have a specific bandwidth through which it will transmit and receive signals to and from other points. The channel assigned to the AP will be appropriate for the centre frequency of the first 20MHz channel used by the AP.

This bandwidth is specifically the frequency range over which the data signals are transmitted. Peak transmission and power is spread over the range of that bandwidth, with it dropping off at the edges.

These edges are then at risk of meeting other nearby wireless networks and are prone to interference from the ‘noise’ of these other networks.

It’s important to use what you know about channels to prevent the reduction of wireless signal speed and loss of scalability of your wireless network.

In order to minimise interference between neighbouring access points, choose to assign them with non-adjacent channels. Following this will make it easier to scale your network. If you don’t follow this principle, you will likely encounter problems with latency and throughput.

The best way of reducing interference when assigning WLAN channels is to carry out a Wi-Fi site survey. This involves analysing the noise levels across the spectrum so you can make informed decisions for your wireless network.

Call The Experts

If this all sounds a bit complicated, then why not give us a call here at Geekabit? We have Wi-Fi expert engineers working out of Hampshire, Cardiff and London who can take care of all your Wi-Fi woes.

From Wi-Fi site surveys, to planning and installation, we’ve got your WLAN covered. GIve us a call or drop us an email to see how we can help keep you and your business connected.

Which Ubiquiti airMAX product should I choose?

It’s no secret that we’re big fans of Ubiquiti products here at Geekabit. We often recommend their devices and bits of kit for our clients and business Wi-Fi installations.

This blog is going to look at some of the different Ubiquiti airMAX products there are and which ones might be suited to your business and Wi-Fi needs. There are lots of different options that cover various outdoor wireless scenarios.

 

Point-to-Point or Point-to-Multipoint?

Let’s start at the beginning. First you need to ascertain whether your outdoor Wi-Fi would be best suited to a Point-to-Point (PtP) or Point-to-Multipoint (PtMP) network. These are the two primary deployment methods for distributing any fixed outdoor wireless communications.

Point-to-Point (PtP) – This method connects two locations, usually at a distance of multiple km, and essentially forms an Ethernet bridge.

Point-to-Multipoint links (PtMP): This method can connect three or more locations, via one Base Station (or Access Point) and multiple CPE devices (Stations) connected to the Access Point.

 

Point-to-Point (PtP) Links

Here are some of the Ubiquiti airMAX products with specifications on what wireless environment they would cater for. Whilst there are distances listed below, these are meant as a reference. It’s important to bear in mind that all real-life results have influencing environmental factors, for example, interference and Line of Sight.

Short distance (0-5 km)

NanoBeam 5AC-G2: This is recommended for short links, and exhibits superior performance which is due to the latest airMAX AC technology. It is able to deliver up to 450Mbps of throughput.

NanoStation 5AC Loco: Another good option for short distance links, this is the lowest cost PtP solution that has airMAX AC technology.

NanoStation 5AC: This one is a popular choice when it comes to short link Wi-Fi, and is commonly chosen for video surveillance due to its dual-Ethernet port capability. It also has airMAX AC technology.

Medium distance (5-15 km)

LiteBeam 5AC-23-G2: This is recommended as Customer Premises Equipment (CPE – any device accessing the internet) for most cases. Thanks to the latest airMAX AC technology, it has superior performance and can to deliver up to 450Mbps of throughput.

PowerBeam 5AC-G2: Recommended as CPE for medium or long distance links. Once again it has superior performance thanks to the latest airMAX AC technology. It can to deliver up to 450Mbps of throughput.

PowerBeam 5AC ISO:  This one is very similar to PowerBeam 5AC but offers an alternative for high-noise environments.

 

Point-to-Multipoint (PtMP) Links

When it comes to PtMP outdoor wireless networks, it’s really important to remember that the performance is dependent on both sides of the link. If you are trying to get across long distances, you’ll need to make good choices when it comes to the Base Station and CPE for each case. We’ll be looking at these options below.

The release of Ubiquiti operating systems airOS 6 (for M devices) and airOS 8 (for AC devices) provides backwards compatibility and means that you can upgrade your M sector by simply swapping the M AP for an airMAX AC radio as the AP.

 

Base Stations

You will usually find the location of a base station on the top of a tower, building or mast. Your maximum coverage will be determined by the height of that tower.

Low Capacity and Short distance Base Stations

For short distance base stations with low capacity, take a look at the following Ubiquiti airMAX products. These are ideal for areas with low interference.

Rocket M + airMAX OMNI antenna: This could be a great option for more rural Wi-Fi needs, particularly as it is susceptible to interference. It can support up to 60+ concurrent stations when all devices are airMAX capable.

High Capacity & High-Performance Base Stations

Rocket 5AC PRISM G1/G2 + airMAX AC Sector Antenna: This one’s for the highest performance base stations with carrier-grade system. Eight 45° antennas give 360° coverage. Co-adjacent noise is significantly reduces with airPRISM technology.

Rocket 5AC Lite + Titanium Sector Antennas: For medium-high density areas, this is a high-performance solution. It uses the latest airMAX AC technology plus variable beamwidth (60-120°) antennas for scalable growth.

LiteAP AC: This one is an ultra-lightweight airMAX AC sector + radio. It has incredible performance and disruptive pricing, plus 120° coverage.

 

Customer Premise Equipment (CPE)

One of the great things about Ubiquiti is the range of products and how they can work together to support your wireless network as a whole. If you go for the airMAX CPE to support your Ubiquiti products, you’re also getting centralised SDN management, hotspot/guest portal, advanced SSID/WLAN configuration, routing, switching and more. It’s well worth looking at the whole range available. Or call the experts (that’s us) to see whether Ubiquiti wireless devices could help with your wireless network.

Short distance (0-3 km)  

NanoBeam 5AC-G2: This has slightly greater range than the NanoBeam 5AC-19 M and is more directive.

Medium distance (3-7 km)

LiteBeam 5AC-23-G2: This low-cost CPE has very narrow beamwidth, and MIMO technology. This one is the new industry-standard for airMAX AC CPEs.

PowerBeam 5AC-G2: This option is a highly directive CPE, with better range and lower noise.

Long distance (7+ km)

PowerBeam 5AC-500/620: This one is a higher power device, with a super directive antenna, better range and lower noise. If you’re a design buff then you might also like how it’s more aesthetically pleasing compared to bulky dishes.

Rocket 5AC-Lite + RocketDish LW: You’ll likely find this one the best performing option. It’s higher cost than integrated designs, and can be unsightly as a CPE. It supports IsoBeam accessory for better isolation, which comes with RF chokes.

 

Frequency Options

Let’s talk about frequency. Due to physics and utilisation, each frequency has different characteristics.

Lower frequencies have better propagation characteristics than higher frequencies. You may find that they work better in environments where the Line of Sight is obstructed (for example, by trees). However, these bands may also have higher levels of noise and interference, so it’s very important to select the frequency that works best for your wireless environment.

Let’s have a look at the pros and cons of some frequency bands.

900MHz (M900) – Pros and Cons

  • Better tolerance for trees and small obstacles in comparison to higher frequencies
  • Tends to have higher noise levels
  • Only has a 26MHz bandwidth

2.4GHz (M2) – Pros and Cons

  • It is unlicensed worldwide
  • It only has 3 over-lapping 20MHz channels (1, 6, 11)
  • It tends to be a very crowded band with interference from other devices such as cordless phones
  • 40MHz channelse are not recommended

3.x GHz (M3-M365) – Pros and Cons

  • 300MHz bandwidth in countries where 3.4-3.7GHz band is available
  • It is noise free in most areas
  • Only 25MHz bandwidth in countries where 3.65GHz can be used
  • It requires a license

5 GHz (5AC/AF5/AF5X) – Pros and Cons

  • It is unlicensed worldwide
  • Higher EIRP limits allow higher gain antennas, and long distance links
  • Large amounts of spectrum available, easier to co-locate nearby devices
  • Weaker propagation in comparison to lower frequencies when there are obstacles like trees or walls are present

10 GHz (M10) – Pros and Cons

  • It is noise-free in most cases and is very useful when the 5.8GHz band is crowded
  • It has a very small Fresnel zone
  • It is only available in a few areas
  • It is a licensed band
  • It needs a perfectly clear Line of Sight

11 GHz (AF11FX) – Pros and Cons

  • It is noise-free in most cases and is very useful when the 5.8GHz band is crowded
  • It has a very small Fresnel zone
  • It is only available in a few areas
  • It is a licensed band
  • It needs a perfectly clear Line of Sight

 

Antenna Types

We spoke about the important of each side of the link being effective to ensure the highest performance possible. Now it’s time to talk about the antennas.

High gain antennas also play an important role when deploying a high performance outdoor wireless network. There are two main reasons:

  • They provide high gain amplification of the signal power resulting in higher signals and better link quality.
  • They are highly directional, which gives them spatial filtering characteristics that can help to block noise. This is especially important in noisy environments.

When thinking about the antenna for the base station, you might think it’s best to go for the one that offers the largest coverage area. However, it’s actually better to choose the antenna that covers the smallest amount of coverage that covers your range area. An antenna covering a larger area than needed could be more susceptible to interference due to a wider beamwidth, causing a decrease in scalability and performance.

Here are the categories of antenna.

Yagi: Directive, used for PTP and CPE applications. Frequently used in low frequencies, such as 900MHz, due to size

Grid: Directive, used for PTP and CPE applications. Great wind-loading properties. However, this type only works in one polarity (1×1), so lower performance than 2×2 antennas (Dish, Panel, etc.)

Panel: Directive, used for PTP and CPE applications. Compact design is very attractive in situations where dishes are not preferred.

Dish: Most Directive, highest performing airMAX antennas for PTP applications. Usually larger and heavier.

Omni: Provides 360 degrees of horizontal coverage (omni-directional). Ideal for low capacity and wide-coverage AP / Base Station applications)

Sector: Ideal choice for high performance Base Stations. Offer higher gain and directivity than omnidirectional antennas. Usually offered in 45, 60, 90, or 120 degree options.

This list is not conclusive. You can find all of the current airMAX antennas here by looking at the antenna section.

For more information in general about Ubiquiti airMAX options, head to their website.

 

No idea where to start?

Here at Geekabit, our expert wireless network engineers have the knowledge and experience to help you deploy a high performing outdoor wireless network in Hampshire, London and Wales. If you would like to discuss your Wi-Fi network requirements, please don’t hesitate to get in touch with us. Our Wi-Fi experts are only a phone call away!

 

What is RF Design and Why Is It Important for my Wi-Fi Network?

Let’s face it – Our Wi-Fi expectations these days are pretty high. We want a strong, fast, reliable connection – And we want it all of the time. When we have good Wi-Fi, we barely notice it. But when it’s bad, it’s frustratingly apparent.

Unfortunately, what people don’t tend to realise is that a significant part of your wireless network is the RF environment. If you want your Wi-Fi network to perform to those high expectations, then you need to ensure you get this RF environment right.

Designing Your RF  Environment

It starts with the design. To create an effective RF design, you need to consider the environment that this Wi-Fi network is going to be functioning in. Are their neighbouring networks? What potential factors could cause interference?

You also need to consider how you need your Wi-Fi network to work. How many users are there? Will there be areas of higher density than others? These sorts of things define the requirements of the RF design. If you want good wireless network performance to meet those high expectations we mentioned above, then your RF environment needs to be correctly designed and managed.

The best way to identify what design would work well for your environment is to carry out a Wi-Fi survey. If you’re not confident in carrying this our yourself, then consider calling in the experts! We make it our business to provide comprehensive Wi-Fi surveys for any business or home environment. Our expert engineers can then design a Wi-Fi network tailored precisely to your needs, and then install it for you.

Analysing Your Wi-Fi Network

If your Wi-Fi network is already up and running, but you suspect there may be issues somewhere then network monitoring tools can be a useful way of providing visibility of any problems.

If you’re in the Wi-Fi field, then this will be a fairly straightforward exercise for you if you know the tools and how to use them. More often than not though, Wi-Fi network problems need a more in-depth analysis to really get to the bottom of what’s causing issues.

This again is where it might be best to call in the experts. Our Wi-Fi engineers have the specialist tools and knowledge to look at your Wi-Fi network, analyse traffic flow and examine exactly how data is passing through.

Are you experiencing poor wireless network performance?

It’s important to remember that you have very little to no control over what type of devices enter your network. Your Wi-Fi network may be open to guests or maybe even the general public depending on your business. Even non-Wi-Fi devices can have a significant impact on your wireless network.

Are you experiencing poor performance on your Wi-Fi network? To identify the problem you need to analyse 3 main components of your wireless network.

  • The configuration
  • The RF environment
  • The devices / users in your network

Luckily for you you’ve landed in the right place! Here at Geekabit, our engineers are Wi-Fi experts and can carry out Wi-Fi surveys, Wi-Fi Design and Wi-Fi Installation all from our bases in Hampshire, London and Cardiff. For more information get in touch with us today.

 

How Does Capacity and Coverage affect Wi-Fi Interference?

This week’s blog is the last in our series on Wi-Fi interference and what you can do about it. So far we’ve covered physical causes of Wi-Fi interference, how electrical devices can affect Wi-Fi through frequency interference and today we’re talking about capacity and coverage.

How does capacity affect Wi-Fi interference?

Capacity problems are most commonplace in corporate environments like offices. A potential issue that these environments might face is having too many users per broadcast device. This causes a capacity overload and that’s when you start to run into Wi-Fi problems.

Each Wi-Fi broadcast device, e.g. a router or access point, has a finite amount of bandwidth. This bandwidth is divided by the number of wireless devices connecting to it. So if only 10 devices are connected, then the bandwidth for that router will be divided by 10. It’s almost irrelevant how fast the internet connection is – If 50 people try to connect then the bandwidth is going to split 50 ways.

Ways to avoid issues with capacity and bandwidth, is to make sure that you don’t have just one router or access point serving an area of high density. If you have a lot of users or users with multiple devices in a certain area, then make sure you have the necessary number of broadcast devices. You might find our blog on ‘How Many Access Points do I need?’ helpful for this.

How does coverage affect Wi-Fi interference?

It’s not just about the capacity in an area, you also need to consider the distance that people are needing to connect across. Getting Wi-Fi coverage right is just as important as capacity.

We all know that that closer we are to a broadcasting device, the stronger and more reliable the signal is going to be. If you know that there will be users in a particular area of your office or business that will need to connect, then make sure that there is a device close-by enough to transmit a strong signal.

Coverage isn’t all about distance, it’s also about whether your devices are installed effectively. For example, it’s pointless installing an access point in close range to users if it’s pointing in the wrong direction, or hidden behind something. Wireless broadcast devices like routers or access points emit their signal in certain directions. Obviously you can’t see what way the radio signals are going so make sure that devices are installed properly. Access points that are hidden behind shelves, or wedged in ceiling tiles are not going to work the way they were intended to. Always check the instructions and manufacturers guide when installing any hardware so that they work effectively and reach the maximum coverage possible. If you’re not sure, then ask the experts!

What can we conclude on the types of Wi-Fi interference and their resolutions?

Wi-Fi has come a long way since it first arrived in our lives, and while the gap between wireless internet and wired is certainly closing, there’s always going to be some inferiority for Wi-Fi when comparing the two.

Some of the resolutions we’ve covered in this series of blogs on Wi-Fi Interference are:

  • Check for physical obstruction risks such as metal and concrete, and place your broadcast devices strateigically to mitigate risks.
  • Check your kit and upgrade where necessary. Devices that can use the 802.11ac frequency with dual band functionality are really useful for scenarious where you need to swap from 2.5Ghz to 5Ghz.
  • Always check for firmware upgrades. A bit like how you update the apps on your smartphones, manufacturers are constantly trying to better their performance by enhancing the software that runs them so do keep a watch for updates which are often free.

It’s so important to take careful consideration when designing your Wi-Fi network. If you don’t feel confident assessing your environment for the potential issues in this series of Wi-Fi interference blogs, then consider calling in the experts. Our Wi-Fi engineers can carry out a Wi-Fi survey followed by planning and design and finished with expert installation for effective and reliable Wi-Fi.

It’s Business As Usual for Geekabit

We’re still here, and we’re not going anywhere.

We are lucky that much of our work is done remotely. And for situations where this isn’t possible, we are fortunately able to continue working within the government guidelines.

As the nation once again faces a period of lockdown, we thought we would link some previous blogs that might prove useful in the coming weeks.

Whether you’re in work or find yourself working from home again, you might well encounter some Wi-Fi problems. Thankfully, many of them are pretty common and are relatively easy to fix. The below blog will give you some top tips to keep you connected.

Common Wi-Fi Problems and How to Fix Them

Got yourself such good Wi-Fi that your neighbour’s sneaking on? You need to make your connection more secure. Here’s how.

Who is Stealing my Wi-Fi and How Can I Block Them?

Desperate for a bit of time out of the house? Bet you never thought you’d be longing for the office! The weather might be turning a bit too chilly to be enjoying the sunshine mentioned in this next blog, but it could help get your Wi-Fi set up in the garden shed. Don’t forget your hot water bottle and flask of coffee!

How do I get Wi-Fi in my garden?

A reliable, fast connection is once again going to be the thing to keep us connected – To colleagues, friends and family. Don’t let rubbish Wi-Fi be the thing that isolates you.

As we said, we’re still here for all your Wi-Fi needs. Perhaps you’re thinking that a business empty of employees and customers is the best time to finally get your patchy Wi-Fi sorted. In which case, do give our Wi-Fi experts a call. Operating out of London, Cardiff and Hampshire, our engineers can provide a Wi-Fi site survey, plan and design your new Wi-Fi network and then install it for you.

Maybe your home Wi-Fi network isn’t cutting it for all your zoom calls? Over the past couple of months we’ve installed a number of 4G broadband kits in place of intermittent Wi-Fi, especially in more rural areas.

To discuss any of the above, please get in touch with us today.